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Cited by in F6Publishing

For:	Ma X, Chen B, Wu H, Jin Q, Wang W, Zha Z, Qian H, Ma Y. A tumour microenvironment-mediated Bi_2-xMn_xO₃ hollow nanospheres via glutathione depletion for photothermal enhanced chemodynamic collaborative therapy. J Mater Chem B 2022;10:3452-61. [PMID: 35395666 DOI: 10.1039/d2tb00398h] [Cited by in Crossref: 2] [Cited by in F6Publishing: 3] [Article Influence: 2.0] [Reference Citation Analysis]

For:

Ma X, Chen B, Wu H, Jin Q, Wang W, Zha Z, Qian H, Ma Y. A tumour microenvironment-mediated Bi_2-xMn_xO₃ hollow nanospheres via glutathione depletion for photothermal enhanced chemodynamic collaborative therapy. J Mater Chem B 2022;10:3452-61. [PMID: 35395666 DOI: 10.1039/d2tb00398h] [Cited by in Crossref: 2] [Cited by in F6Publishing: 3] [Article Influence: 2.0] [Reference Citation Analysis]

Number	Citing Articles
1	Di X, Pei Z, Pei Y, James TD. Tumor microenvironment-oriented MOFs for chemodynamic therapy. Coordination Chemistry Reviews 2023;484:215098. [DOI: 10.1016/j.ccr.2023.215098] [Reference Citation Analysis]
2	Chu Z, Yang J, Zheng W, Sun J, Wang W, Qian H. Recent advances on modulation of H2O2 in tumor microenvironment for enhanced cancer therapeutic efficacy. Coordination Chemistry Reviews 2023;481:215049. [DOI: 10.1016/j.ccr.2023.215049] [Reference Citation Analysis]
3	Duan J, Liao T, Xu X, Liu Y, Kuang Y, Li C. Metal-polyphenol nanodots loaded hollow MnO(2) nanoparticles with a "dynamic protection" property for enhanced cancer chemodynamic therapy. J Colloid Interface Sci 2023;634:836-51. [PMID: 36565625 DOI: 10.1016/j.jcis.2022.12.088] [Reference Citation Analysis]
4	Zhang L, Lu H, Tang Y, Lu X, Zhang Z, Zhang Y, Liu Y, Wang C. Calcium-peroxide-mediated cascades of oxygen production and glutathione consumption induced efficient photodynamic and photothermal synergistic therapy. J Mater Chem B 2023. [PMID: 36912360 DOI: 10.1039/d2tb02776c] [Reference Citation Analysis]
5	Yang X, Cao X, Fu Y, Lu J, Ma X, Li R, Guan S, Zhou S, Qu X. Layered double hydroxide-based nanozyme for NO-boost multi-enzyme dynamic therapy with tumor specificity. J Mater Chem B 2023;11:1591-8. [PMID: 36723124 DOI: 10.1039/d2tb02718f] [Reference Citation Analysis]
6	He X, Zhang S, Tian Y, Cheng W, Jing H. Research Progress of Nanomedicine-Based Mild Photothermal Therapy in Tumor. Int J Nanomedicine 2023;18:1433-68. [PMID: 36992822 DOI: 10.2147/IJN.S405020] [Reference Citation Analysis]
7	Chen C, Tan Y, Xu T, Sun Y, Zhao S, Ouyang Y, Chen Y, He L, Liu X, Liu H. Sorafenib-Loaded Copper Peroxide Nanoparticles with Redox Balance Disrupting Capacity for Enhanced Chemodynamic Therapy against Tumor Cells. Langmuir 2022. [PMID: 36154182 DOI: 10.1021/acs.langmuir.2c01938] [Reference Citation Analysis]
8	Tang Z, Ali I, Hou Y, Akakuru OU, Zhang Q, Mushtaq A, Zhang H, Lu Y, Ma X, Ge J, Iqbal MZ, Kong X. pH-Responsive Au@Pd bimetallic core-shell nanorods for enhanced synergistic targeted photothermal-augmented nanocatalytic therapy in the second near-infrared window. J Mater Chem B 2022;10:6532-45. [PMID: 36000458 DOI: 10.1039/d2tb01337a] [Reference Citation Analysis]
9	Shi H, Ban C, Dai C, Li C, Zhou X, Xia R, Qian J, Cao M. Glutathione-depletion reinforced enzyme catalytic activity for photothermal assisted bacterial killing by hollow mesoporous CuO. J Mater Chem B 2022;10:8883-8893. [DOI: 10.1039/d2tb01621d] [Reference Citation Analysis]